Engineering/Process Change Notice ECN No.: 3562A For Manufacturer Product Description: Abracon Part Number / Part Series: Series MEMS SMD Oscillator EMK23 Part Number Affected Revision: New Revision: Application: Safety K 09/10/2014 L 08/19/2020 Non-Safety Prior to Change: EMK23 Series Revision K 09/10/2014 (First Generation: see page 10) After Change: EMK23 Series Revision L 08/19/2020 (Second Generation: see page 2) Cause/Reason for Change: Product discontinuation of the first generation internal IC used inside this product series. IC replaced with a new second generation device with improved performance (Input current, start-up time, standby current, wider operating temperature range, and extended frequency range, lower rms period jitter). Change Plan Effective Date: Additional Remarks: Immediate None Change Declaration: N/A Issued Date: Issued By: Issued Department: 08/24/2020 Stephanie Lopez Engineering Approval: Approval: Approval: Thomas Culhane Reuben Quintanilla Ying Huang Engineering Director Quality Director Purchasing Director For Abracon EOL only Last Time Buy (if applicable): Alternate Part Number / Part Series: N/A N/A Additional Approval: Additional Approval: Additional Approval: N/A N/A N/A Customer Approval (If Applicable) Qualification Status: Approved Not accepted Note: It is considered approved if there is no feedback from the customer 1 month after ECN/PCN is released. Customer Part Number: Customer Project: Company Name: Company Representative: Representative Signature: Customer Remarks: Form 7029 Rev. A Effective: 06/26/2020 Page 1 of 17 OSCILENT NRNDEMK23 Series REGULATORY COMPLIANCE 2011/65 + 191 SVHC 2015/863 ITEM DESCRIPTION MEMS Clock Oscillators LVCMOS (CMOS) 3.3Vdc 4 Pad 3.2mm x 5.0mm Plastic Surface Mount (SMD) ELECTRICAL SPECIFICATIONS Nominal Frequency 1MHz to 125MHz Frequency Tolerance/Stability Inclusive of all conditions: Calibration Tolerance at 25C, Frequency Stability over the Operating Temperature Range, Supply Voltage Change, and Output Load Change 100ppm Maximum over 0C to +70C 50ppm Maximum over 0C to +70C 25ppm Maximum over 0C to +70C 20ppm Maximum over 0C to +70C 100ppm Maximum over -20C to +70C 50ppm Maximum over -20C to +70C 25ppm Maximum over -20C to +70C 20ppm Maximum over -20C to +70C 100ppm Maximum over -40C to +85C 50ppm Maximum over -40C to +85C 25ppm Maximum over -40C to +85C 20ppm Maximum over -40C to +85C Aging at 25C 1.5ppm Maximum First Year Supply Voltage 3.3Vdc 10% Input Current No Load 5mA Maximum over Nominal Frequency of 1MHz to 20MHz 6mA Maximum over Nominal Frequency of 20.000001MHz to 50MHz 7mA Maximum over Nominal Frequency of 50.000001MHz to 80MHz 9mA Maximum over Nominal Frequency of 80.000001MHz to 125MHz Output Voltage Logic High (V ) IOH = -4mA OH 90% of Vdd Minimum Output Voltage Logic Low (V ) IOL = +4mA OL 10% of Vdd Maximum Rise/Fall Time Measured from 20% to 80% of waveform 1.2nSec Typical, 3nSec Maximum Duty Cycle Measured at 50% of waveform 50 10(%) 50 5(%) Load Drive Capability 15pF Maximum Output Logic Type CMOS Output Control Function Tri-State (Disabled Output: High Impedance) Power Down (Disabled Output: Logic Low) Output Control Input Voltage Logic 70% of Vdd Minimum or No Connect to Enable Output High (Vih) Output Control Input Voltage Logic 30% of Vdd Maximum to Disable Output Low (Vil) Power Down Output Enable Time 5mSec Maximum (Disabled Output: Logic Low) Tri-State Output Enable Time 150nSec Maximum (Disabled Output: High Impedance) Power Down Output Disable Time 150nSec Maximum (Disabled Output: Logic Low) Tri-State Output Disable Time 150nSec Maximum (Disabled Output: High Impedance) Standby Current 10A Maximum (Disabled Output: Logic Low) Period Jitter (RMS) 2pSec Typical, 4pSec Maximum Revised L: 8/19/2020 Page 2 of 17 www.ecliptek.com NRND